Zipper lubricating device

ABSTRACT

The instant invention describes a zipper lubricating applicator device for dispensing a lubricant to components of a zipper. The applicator device is designed to fit various lubricant reservoirs and is capable of dispensing lubricant in the form of liquids, gels, or aerosols. The zipper lubricating applicator device contains a lubricant receiving cavity constructed and arranged to receive a lubricant reservoir. A lubricant dispensed from the lubricant reservoir is received by the lubricant receiving cavity and is directed to at least one inner lumen. The lubricant is dispersed at a controlled rate and to a desired portion of a zipper through the zipper receiving channel. The zipper receiving channel is constructed and arranged to provide dispensing of the lubricant to a portion of the zipper as the applicator device slidably moves upon the zipper track. The instant invention further describes systems for applying a lubricant to a zipper track.

RELATED APPLICATION

This application is a divisional of U.S. patent application Ser. No.12/648,717, filed Dec. 29, 2009, which claims benefit of the filing dateof U.S. Provisional Application No. 61/203,914, filed on Dec. 30, 2008,the contents of which are herein incorporated by reference.

FIELD OF INVENTION

The invention describes a device that places a lubricant on theinterlocking elements of a zipper fastener, more particularly, theinvention describes a zipper lubricating applicator device which can beattached to lubricant reservoirs for dispensing a lubricant to theinterlocking elements of a zipper as the device travels along the zippertrack.

BACKGROUND OF INVENTION

The common zipper is a well known fastening device having variousapplications, including uses in clothing, bags, or outdoor goods. Mostzippers are either made from materials which resist malfunction or aretreated with materials to ensure an even sliding mechanism. However,providing a zipper that does not malfunction has yet to be accomplished.For those zipper fastening systems that encounter harsh environments,such as those zippers associated with wet suits, failure rates may beeven greater. Moreover, as a zipper ages or is subjected to repetitivecleaning, the possibility of malfunction increases. Because the zipperis common to everyday uses, most people fail to recognize the need toapply preventative maintenance measures. For example, it may benecessary to apply a lubricant to ensure that the zipper retains anability to slide along the teeth, preventing malfunction. Although thezipper is easily manufactured, the item to which the zipper may beattached may not be easily replaceable. Should the zipper become damagedor malfunction, it may be necessary to replace the entire object whichcould be costly or result in sentimental loss.

A common method used in preventing zippers from malfunction is the useof waxes or soaps as a lubricant. Waxes and soaps usually come in solidsticks and require the user to run the solid object over the zippertrack. This method is messy and not always effective. Modern society isreplete with machines that utilize moving parts. As such, commerciallubricants have developed to insure proper functioning and an increaseuseful life. These commercial products can be applied to zippers.However, dispensing methods are imprecise at best and applying thelubricant to unwanted areas can result in discoloration and sullying ofthe item. Therefore, a lubricant applicator device that can be used withcommercially available lubricant reservoirs to dispense a desired amountof lubricant to a desired position within the zipper track is needed.

DESCRIPTION OF THE PRIOR ART

U.S. Pat. No. 3,019,471 discloses a zipper lubricating device fordispensing a solid lubricant. The device contains a housing whichcontains a slide operator and a solid lubricant. The housing contains abase plate and a generally U-shaped wall which projects from theperiphery of the bottom plate. A top plate, similar in outline to thebottom plate connects to the upper edge of the generally U-shaped wall,thus creating a pocket for the slide operator and the wafer. The ends ofthe upper plate and the bottom plate further contain flanges whichprovide for the zipper element to be received within the flangedportions. In this arrangement, the flanges can be used as tracks toguide the zipper element across the solid lubricant.

U.S. Pat. No. 3,058,144 describes a lubricating zipper, particularly toan improvement of the zipper lubricator for facilitating lubrication ofa clothing-type zipper. The '144 device is a cup-shaped, metal tubecasing which is enclosed at the bottom end and open at the top end. Aremovable cap is placed on the open end to enclose the metal tubecasing. Positioned within the metal tube casing is an upright coppertubing adapted to receive a supply of lubricant. In use, lubricant issupplied to the top portion of the upright copper tubing. The lubricantflows in a downward direction, exiting through an outlet opening at thebottom of the cup-shaped metal tubing. Housed within the cup-shapedmetal tubing is felt padding. The padding is positioned in the spacebetween the cup-shaped metal tubing and the upright copper tubing.Lubricant supplied to the upright copper tubing gets absorbed by thefelt padding. An opening in the cup-shaped metal tubing allows for aportion of a zipper to be passed along the felt pad, thus providing afilm of lubricant to the zipper teeth.

U.S. Pat. No. 3,519,099 discloses a zipper lubricator which uses ahollow block containing a piston actuated by a shaft threaded in theblock. Filled within the hollow block is a lubricant. The lubricant isforced through the slot in a base plate into a groove which fits overthe teeth of a zipper string.

U.S. Pat. No. 3,491,854 discloses a hand held, slide fastener lubricatordevice. The device contains opposing disc portions. The two discportions have curved peripheral flanges spaced apart to receive a slidefastener between them and a body of solid wax-type lubricant fixedlyheld between the disc portions. The lubricant has a curved peripheralsurface positioned inwardly from the peripheral edges of the discportions. The two disc portions are connected by a portion extendingthrough the interposed lubricant to secure it into place. Inner surfacesof the peripheral flanges of the disc portions converge inwardly toguide the fastener elements to the solid lubricant while keeping theportions of fabric to which the fasteners are attached out of contactwith the lubricant as the lubricator is slid along a fastener tolubricate it.

U.S. Patent application 2004/0146656 discloses an apparatus and methodfor lubricating a raised or protruding surface. The apparatus includes aholder and an insert. The insert has an outer surface and at least twosections which meet along an interface. The two sections may be manuallyor mechanically separated when needed. A channel is formed by theseparation of opposing inner surfaces along the interface, each havingidentical upper surfaces. The entire apparatus is formed by placing theinsert into the holder. The holder has an inner cavity having expandedflanged surface which increase circumferally as it extends past ahorizontal floor of an upper channel. The upper channel being formed byopposing vertical members and the horizontal floor. To use the device, auser inserts the absorbent insert into the holder. The insert is thenseparated to from a receiving cavity. Lubricant is then placed into thecavity. Once lubricant is added, the device is placed on a protrudingsurface and slide across the surface in such a manner that theprotruding surface lubricates the device within the cavity.

U.S. Pat. No. 5,263,787 discloses a holder having a sealing cap portionfor craft paint applicators. The holder includes a lower base portionwith an interior cavity formed in the upper portion of the holder. Athreaded portion is formed therein for mating engagement with a threadedportion on the applicator bottle. The interior cavity terminates in anend wall portion that seals the dispensing end of the applicator tipfrom air circulation and from leakage. The applicator is inserted in theinterior cavity of the holder and twisted to lock the applicator tip inthe holder so the applicator tip is sealed within the holder. Thisallows the base portion of the holder to support the applicator in ainverted position. Since the applicator is inverted, craft paint isalways in fluid contact with the inner surfaces of the applicator tip.This prevents the craft paint from drying and clogging the applicatortip and also keeps any air in the applicator at the end of theapplicator opposing the applicator tip to minimize the formation of airbubbles in the flow of the craft paint.

U.S. Pat. No. 5,340,228 discloses a cap for fluid applicators andparticularly for craft paint applicators having fine tips. The capincludes an abutment shoulder for engaging a corresponding abutmentshoulder on the applicator tip to form a first seal. A flexible shoulderis formed in the interior cavity of the cap spaced from the cap abutmentshoulder. The interior cavity terminates in an end wall portion spacedfrom the flexible shoulder. The cap is threaded onto the applicatorcausing the dispensing end of the applicator tip to engage the cap endwall portion. The flexible shoulder of the interior cavity of the capresiliently yields as the dispensing end is forced against the cap endwall portion during the continued rotation of the cap until theapplicator abutment shoulder engages the abutment shoulder in the cap.The cap thus seals the applicator tip in at least two positions. Theresilient yielding of the flexible shoulder portion compensates for anydimensional variation in the length of the applicator tip or cap toensure that the cap will always seal the applicator tip without damageto the tip.

U.S. Pat. No. 5,857,796 discloses a fluid applicator with a supplementalreservoir. The applicator with reservoir is comprised of a reservoirhaving a threaded open top. A flow cap, having a fluid chamber therein,is threadably securable to the reservoir. A plug, seated on a pluralityof prongs extends from the top of the flow cap and forms a plurality offluid openings there between. A closure valve snap fits onto the flowcap and is thereafter free to threadably rotate about the flow capbetween a normally closed and a normally open position. An applicatorcap, having a fluid reservoir and an applicator tip connected by a duct,is threadably securable to the closure valve. The applicator tip can beof any appropriate design including a brush, a sponge tip, a stylus tip,a roller tip, as well as many others.

U.S. Pat. Nos. 6,979,289 and 6,954,970 disclose an improved slider forsecuring interlocking members of the zipper and a slider insertionapparatus. The slider insertion apparatus includes an activator withpusher, an insertion cylinder, and a zipper guide. The zipper guide andthe activator with pusher are manufactured to facilitate movement of thezipper within the slider insertion apparatus, to properly position theprofiles of the zipper for slider insertion, and to secure the zipperwhen the slider is inserted onto the zipper. A loading rack with asupply of sliders may be part of the slider insertion apparatus, withthe loading rack being a mechanically attachable device.

SUMMARY OF THE INVENTION

The instant invention describes a zipper lubricating applicator device,and system, for dispensing a lubricant to one or more components of azipper. The zipper lubricating applicator device contains a main bodyhaving a lubricant receiving cavity constructed and arranged to receivea lubricant reservoir, including a selectively pressurized lubricationreservoir which requires some action, i.e. squeeze of a tube or pressinga nozzle, by the user in order to dispense the lubricant. A lubricantdispensed from the lubricant reservoir is received by the lubricantreceiving cavity and is directed to a zipper receiving channel. The mainbody may also contain at least one inner lumen. In this embodiment, theinner lumen further provides a pathway for a lubricant from thelubricant reservoir receiving cavity to a zipper receiving channel. Thelubricant is dispersed at a controlled rate and onto a desired portionof a zipper.

The zipper receiving channel is constructed and arranged to providedispensing of the lubricant to a portion of a zipper as the applicatordevice slidably moves upon a zipper track. The instant invention furtherdescribes systems for applying a lubricant to a zipper track.

The instant invention also describes a zipper lubricating applicatorsystem, which includes a zipper lubricating device having an upper plateand a lower plate connected by a vertical connecting block. The zipperlubricating device is further constructed and arranged for receipt ofmultiple zipper tracks through the multiple zipper receiving channelssuch that movement of the zipper lubricating applicator device in onedirection results in the linking of the zipper interlocking teeth andmovement in the opposite direction results in unlinking of the zipperinterlocking teeth, at least one lubricant receiving port, a lubricantapplicator body receiving structure constructed and arranged for receiptof a lubricant applicator body. The system further contains a lubricantapplicator body having a first end constructed and arranged to engagethe lubricant applicator body receiving structure, a second endconstructed and arranged to receive a selectively pressurizedlubrication reservoir, and an inner cavity for providing fluidcommunication between the multiple zipper receiving channels and theselectively pressurized lubrication reservoir.

Accordingly, it is a primary objective of the instant invention toprovide a zipper lubricating applicator device for dispensing alubricant to one or more components of a zipper.

It is a further objective of the instant invention to provide a zipperlubricating applicator device which controllably dispenses a desiredamount of lubricant to a zipper portion.

It is yet another objective of the instant invention to provide a zipperlubricating applicator device which controllably dispenses a desiredamount of lubricant to a desired location along a zipper track.

It is a still further objective of the invention to provide a zipperlubricating applicator device which dispenses lubricant while beingslidably engaged with a zipper track.

It is yet another objective of the instant invention to provide a zipperlubricating applicator device which is mountable on various commerciallyavailable lubricant reservoirs.

It is a still further objective of the instant invention to provide azipper lubricating applicator device which dispenses a lubricant in theform of a liquid, gel, or aerosol to a zipper track.

It is a further objective of the instant invention to provide a systemfor applying a zipper lubricant to a zipper track.

Other objects and advantages of this invention will become apparent fromthe following description taken in conjunction with any accompanyingdrawings wherein are set forth, by way of illustration and example,certain embodiments of this invention. Any drawings contained hereinconstitute a part of this specification and include exemplaryembodiments of the present invention and illustrate various objects andfeatures thereof.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 is a common zipper fastener system, illustrating commoncomponents that make up the system.

FIG. 2A illustrates a zipper lubricating applicator device attached to alubricant reservoir.

FIG. 2B illustrates a zipper lubricating applicator device engaged witha zipper track.

FIG. 3A illustrates a cross sectional view of a particular embodiment ofthe zipper lubricating applicator device.

FIG. 3B illustrates a side view of the lubricating applicator device,particularly highlighting the various components of the zipper receivingchannel.

FIG. 4 illustrates a cross sectional view of a second embodiment of thelubricating applicator device.

FIG. 5A illustrates a cross sectional view of the zipper lubricantapplicator device with a lubricant reservoir.

FIG. 5B shows the zipper lubricant applicator with lubricant reservoir,illustrating flow of lubricant as the device is moved along a zippertrack.

FIG. 6A illustrates an alternative embodiment of the zipper lubricatingdevice as described in a system, including multiple zipper receivingchannels, a lubricant applicator body, and a selectively pressurizedlubrication reservoir.

FIG. 6B is a cross sectional views of the zipper lubricating device of6A without a selectively pressurized lubrication reservoir, illustratinga particular embodiment of the lubricant applicator body connectingelement for receipt of a lubricant applicator body and an applicatorbody.

FIG. 6C is a cross section view of zipper lubricating device of 6Awithout a selectively pressurized lubrication reservoir, illustratingengagement of the lubricant applicator body connecting element and thelubricant applicator body.

DETAILED DESCRIPTION OF THE INVENTION

Illustrated in FIG. 1 is a common zipper fastener found on clothingitems. The zipper fastener 100 contains a pair of opposing tapes 102 and103. Positioned on the tapes are opposing tracks 104 and 105 havinginterlocking teeth, 106 and 107 respectively. A slider 108 with apulling device 109 moves along the opposing interlocking teeth to eitherlock, 110 or unlock, 111, teeth 106 and 107 as slider 108 moves up anddown tracks 104 and 105.

The instant invention describes a zipper lubricating applicator devicefor dispensing a lubricant and/or other substances, such as but notlimited to anti-oxidants for protecting and preserving the zipper parts,ultraviolet (UV) protectants for protection against wear and fading andrestoration of natural coloring, or water proofing/water resistantmaterials, to one or more components of a zipper. The zipper lubricatingapplicator device contains a main body having a lubricant receivingcavity constructed and arranged to receive or be connected to alubricant reservoir, including a selectively pressurized lubricationreservoir which requires some action, i.e. squeeze of a tube or pressinga nozzle of a spray can, by the user in order to dispense the lubricant.The applicator device may further include one or more inner lumens. Alubricant dispensed from the selectively pressurized lubricationreservoir is received by the lubricant receiving cavity and is directedto at least one inner lumen. The inner lumen provides a pathway for thelubricant as it travels from the lubricant receiving cavity to a zipperreceiving channel. Use of the inner lumen provides the ability todisperse the lubricant at a controlled rate and onto a desired portionof a zipper. In an alternative embodiment not including the lumen, thelubricant receiving cavity is fluidly connected to the zipper receivingchannel directly. The zipper receiving channel is constructed andarranged to provide dispensing of the lubricant to a portion of a zipperas the applicator device slidably moves along the zipper track. WhileFIG. 1 illustrates a common clothing zipper, the instant invention isdesigned to work with all zipper types known to one of skill in the art,including but not limited to coil zippers (both spiral form and ladderform), invisible, metallic, plastic-molded, open-ended, closed-ended, orthe like.

The advantage of the instant invention is that the device is designed toattach directly to a commercially available lubricant reservoir andprovide the user a safe, fast, and effective manner in which to applylubricants and/or other zipper protecting materials. A common lubricantused for zipper applications is polytetraflouroethylene and is sold as agel-like substance. In this form, application to a zipper can bedifficult to apply without using ones' hands, paper or common applicatortips. Using paper or common applicator tips is not effective because asthe paper or applicator tip slides across the teeth of the zipper, theteeth of the zipper catches. Using fingers may be effective, but suchtechnique is messy and increases the risk of damaging the materialattached to the zipper. The applicator device described herein isdesigned to dispense different lubricant forms and attach to differentdispensing reservoirs. FIG. 2A illustrates zipper lubricating applicatordevice 200 attached to a selectively pressurized lubrication reservoir500. The device is further designed to engage and securely fasten onto aportion of the zipper system to disperse lubricant to a desired locationas it slideably moves along the zipper track. FIG. 2B illustratesselectively pressurized lubrication reservoir 500 attached with zipperlubricating applicator device 200 positioned along a zipper track, 104.

FIG. 3A illustrates a cross sectional view of a particular embodiment ofthe applicator device. Applicator device 300 includes a main body 314having a lubricant receiving cavity 301. Cavity 301 includes an openend, 302, and a closed end, 303. Although FIG. 3A illustrates cavity 301as substantially cylindrically shaped and includes a tapered end, cavity301 may be constructed to any shape, size, or configuration. Dependingon the overall design of the applicator device, the cavity can bepositioned in any orientation, such as directly through the center,off-centered, or at various angles. Lubricant receiving cavity 301 isdesigned to receive or be connected to a selectively pressurizedlubrication reservoir through insertion of opening 302. Because manycommercial lubricant reservoirs come with a dispensing top havingmale/female threading, threading 306 can accommodate a reservoir withsuch feature. However, the cavity does not require the threading and canbe designed to attach in other ways, such as a snap lock or providing atight fit or pressure/frictional fit between the cavity and dispensingelement. Connected to lubricant receiving cavity 301 is an inner lumen304. Inner lumen 304 interconnects lubricant reservoir receiving cavity301 with a zipper receiving channel 305 and provides a controllablemechanism in which to control the amount dispensed, depending on thetype of lubricant to be dispensed. Therefore, inner lumen 304 may besized, shaped and positioned within the applicator device according tothe type of lubricant used and the amount of a lubricant to bedispensed. In an alternative embodiment, the applicator device may notutilize the inner lumen, in which case the cavity 301 is directlyconnected to the zipper receiving channel 305.

Zipper receiving channel 305 is constructed in such a manner as toprovide applicator device the capability of slidable movement along aportion of a zipper fastener, such as the fastening elements of thezipper track. As illustrated in FIG. 3B, zipper receiving channel 305has a generally rectangular-shaped cross-section and can be defined byan upper surface, lower surface, two side lateral walls, and two openends. Upper surface 306 is formed as an integral part of the top surfaceof the applicator tip. Bottom surface 307 is formed as an integral partof the bottom surface of the applicator tip. The sides of the zipperreceiving channel 305 have two open ends, 308 and 309. Open ends 308 and309 provide a mechanism for insertion of the zipper track and slidablemovement along the zipper fastening elements. The lateral sides ofzipper receiving channel 305 are defined by a first wall, 310, and apartially closed second side wall, 311. The second side wall is formedfrom an upper guide rail 312 and a lower guide rail 313. A portion ofthe second side wall contains a curvature, but may also be straight.Upper and lower guide rails may contain curvature as well. Inserting azipper track within the channel provides a guide as the applicatordevice slideably engages the zipper track. While the zipper receivingchannel is illustrated as dispensing lubricant onto one zipper track,the zipper receiving channel may be adapted to contain multiple zipperreceiving channels inn order to dispense lubricant to multiple tracks.Zipper receiving channel 305 further contains an opening, 315, whichprovides a pathway for the lubricant as it travels from the lubricantreceiving cavity and/or the inner lumens. In a particular embodiment,the zipper receiving channel is made of a flexible material, such as aflexible plastic, such that the device can be inserted anywhere along azipper track, yet remain firm enough to engage the zipper track.

A unique aspect of the zipper applicator is that it can be modified toengage any type of commercially available lubricant reservoir. FIG. 4illustrates a second embodiment of the lubricating applicator device.The design of this applicator device provides dispensing of a lubricanthoused in a spray can, allowing the user an ability to controllablychannel lubricants in the form of an aerosol to the desired section ofthe zipper as the applicator device slides along the zipper track.Applicator device 400 includes a main body 414 having a lubricantreceiving cavity 401. Cavity 401 includes a first open end 402 and asecond closed end, 403. Cavity 401 is substantially cylindrically shapedand may include a tapered end. Connected to lubricant reservoirreceiving cavity 401 is a first inner lumen 404. First inner lumen isconnected to a second inner lumen, 405. Inner lumens 404 and 405interconnect lubricant reservoir receiving cavity 401 with a zipperreceiving channel 406. Zipper receiving channel 406 is constructed insuch a manner that provides slideable movement along a portion of azipper fastener, such as the interlocking elements of a zipper track andhas the same general design as described previously. Lubricant receivingcavity 401 can be designed in such a manner to receive a lubricantdispensing device, such as a spray can, through insertion of open end402, i.e. snap lock. Alternatively, the main body may not include one ormore inner lumens, in which case the cavity 401 is directly connected tozipper receiving channel 406.

FIGS. 5A and 5B illustrate operation of the lubricating applicatordevice and selectively pressurized lubrication reservoir. Referring toFIG. 5A, selectively pressurized lubrication reservoir 500 includes adispensing element 501 positioned at one end of the reservoir.Dispensing element 501 of selectively pressurized lubrication reservoiris illustrated as having threading 502 and a dispensing tip 503. In use,lubrication reservoir is inserted into applicator device 300 byinsertion of dispensing tip 503 through opening 302 and into thelubricant receiving cavity 301. Threading 502 of dispensing element 501is designed to engage the threading of lubricant receiving cavity 301such that when either applicator device 300 or selectively pressurizedlubrication reservoir 500 is rotated, the two elements are secured toeach other. Applicator device 300 is designed such that when thepressurized lubrication reservoir 500 is inserted and/or rotatedcompletely, dispensing tip 503 is sealed against the back portion 303 oflubricant receiving cavity 301. In this embodiment, lubricant receivingcavity 301 is designed such that the back end extends past inner lumen304. By sealing dispensing device 503 to the back end portion 303, theapplicator device remains connected with the selectively pressurizedlubrication reservoir without increasing the risk that the contentswithin the reservoir may become dried out, contaminated, or leak. Fullrotation of the applicator device into the dispensing element results inthe dispensing device moving past the inner lumen and resting againstthe back end of the cavity. To dispense the contents of the selectivelypressurized lubrication reservoir, the applicator device or dispensingreservoir is rotated in the opposite direction until the dispensingdevice rests at or near the inner lumen. Pressure applied against theselectively pressurized lubrication reservoir provides the forcenecessary to expel lubricant out of the lubricant reservoir through thedispensing element. The lubricant is then dispensed into the innercavity and through inner lumen 304 to the zipper receiving channel 305.The zipper receiving channel engages the zipper and provides slidablemovement without moving off the zipper track or teeth.

FIG. 5B illustrates the applicator device engaged with the interlockingelements 106 of zipper track 104 through insertion via zipper receivingchannel openings 308 and 309. Dispensing of lubricant 505 out of theselectively pressurized lubrication reservoir dispensing element andinto inner lumen 304 (FIG. 5A) provides the mechanism of controllableand directed application to any portion of the zipper system, includingon the interlocking elements 106 or within the spaces between, 107, ofthe individual interlocking elements. As the interlocking elements areinserted into the zipper receiving channel, upper and lower surfaceguide rails 312 and 313, respectively (see FIG. 3B), engage theinterlocking element, thus keeping the zipper receiving channel engagedwith the track as the applicator device/lubricant reservoir slides alongthe track dispensing the lubricant. The curvature of the guide railsand/or the zipper receiving channel exerts a force against theindividual interlocking elements as the zipper lubricating device movesalong the zipper track. The force exerted upon the interlocking elementsresults in the individual interlocking elements being pushed upwardly,closer to the area of the device where the lubricant is being dispensed.As the guide rails push the interlocking elements up, the individualinterlocking elements also diverge or separate such that the areabetween adjacent interlocking elements is larger than when not engagedwith the device. As the device moves further along the zipper track andengages other interlocking elements, the non-engaged with theinterlocking elements re-align to their original position, but fill,either partially or completely, with lubricant.

While the previous embodiments describe lubricating applicator devicesconstructed to connect with independent lubricant reservoirs, theapplicator devices may be commercially available as a system, includingthe applicator device attached to a lubricant reservoir. The system maybe constructed as one piece which is then filled with a desiredlubricant. Alternatively, the applicator device can be constructedseparately and attached to a pre-filled lubricant reservoir prior topackaging of the product.

FIGS. 6A, 6B, and 6C illustrate several aspects of a particularembodiment of a zipper lubricating system, 600, including multiplezipper receiving channels, 601, a lubricant applicator body, 602, and aselectively pressurized lubrication reservoir 500. As illustrated inFIG. 6B, the zipper lubricating device contains multiple zipperreceiving channels, 601, which are constructed and arranged to allowmultiple zipper tracks to interconnect together or separate dependingupon the direction of the movement. In this manner, the zipperlubricating device functions as both a traditional zipper slider byopening and closing the zipper interlocking elements, or teeth, and as alubricating device. As described previously, zipper lubricating devicecontains one or more zipper receiving channels which include first andsecond open ends and one or more guide rails which may contain acurvature. The zipper lubricating device further includes a verticalconnecting block, 603, which interconnects a lubricating device upperplate 604 and a lubricating device lower plate 605. As illustrated,upper and lower plates are connected in a parallel manner. Verticalconnecting block 603 may extend longitudinally along the upper and lowerplates along the entire length of plates 604 and 605. In a preferredembodiment, vertical connecting block 603 extends partially, 606, alongthe upper and lower plates to create two Y-shaped channels. The zipperlubricating device contains at least one lubricant receiving opening orport, 607. Attached to lower plate 605 are elements 608 and 609 whichdefine a lubricant applicator body receiving structure, 610, for receiptof a lubricant applicator body.

Main body 602 includes a first end, 611, constructed and arranged toengage a lubricant applicator body connecting element 610, a second end,612, constructed and arranged to receive a selectively pressurizedlubrication reservoir, and an inner cavity 613 for providing fluidcommunication between the multiple zipper receiving channels and theselectively pressurized lubrication reservoir. Main body 602 furtherincludes at least one inner lumen, 614, which terminates in at least oneopening, 615, along first end 611. Alternatively, main body 612 may notinclude an inner lumen, in which case opening 615 is connected to cavity612, providing fluid communication between the multiple zipper receivingchannels and the selectively pressurized lubrication reservoir.Lubricant applicator body connecting element 610 has a generallyT-shaped cross section and is defined by the lubricating device lowerplate 605, a parallel wall, separated into 608′ and 608″ (collectively608) by an opening, and two lateral side walls 609′ and 609″(collectively 609) attached to 608′ and 608′ respectively. Asillustrated in FIG. 6C, main body 602 engages the lubricant applicatorbody connecting element 610 and is held in place by structures 608 and609 such that opening 615 positioned along first end 611 of the mainbody 602 aligns with at least a portion of lubricant receiving port 607.Second end 612 engages with a selectively pressurized lubricationreservoir through various means such as frictional fitting, or bycontaining male or female threading. Movement of the device along azipper track is accomplished by attachment of a pulling tab, 616. Asillustrated, pulling tab has an elongated body 617 having a first loopedend 618 and a second looped end 619 which pivotally couples to a zipperpull coupling element 620 attached to upper plate 604. The systemdescribed above is useful for situations in which the user desires afunctional zipper device, i.e. lock/unlock zipper teeth, which alsofunctions as a zipper lubricant dispensing device to be placed on azipper track. If the user desires to lubricate or treat the zippertrack, a lubricant applicator body can be inserted into the lubricantapplicator connecting element which can be used to dispense lubricantupon the zipper teeth as the device slides along the zipper track.

All patents and publications mentioned in this specification areindicative of the levels of those skilled in the art to which theinvention pertains. All patents and publications are herein incorporatedby reference to the same extent as if each individual publication wasspecifically and individually indicated to be incorporated by reference.

It is to be understood that while a certain form of the invention isillustrated, it is not to be limited to the specific form or arrangementherein described and shown. It will be apparent to those skilled in theart that various changes may be made without departing from the scope ofthe invention and the invention is not to be considered limited to whatis shown and described in the specification and any drawings/figuresincluded herein.

One skilled in the art will readily appreciate that the presentinvention is well adapted to carry out the objectives and obtain theends and advantages mentioned, as well as those inherent therein. Theembodiments, methods, procedures and techniques described herein arepresently representative of the preferred embodiments, are intended tobe exemplary and are not intended as limitations on the scope. Changestherein and other uses will occur to those skilled in the art which areencompassed within the spirit of the invention and are defined by thescope of the appended claims. Although the invention has been describedin connection with specific preferred embodiments, it should beunderstood that the invention as claimed should not be unduly limited tosuch specific embodiments. Indeed, various modifications of thedescribed modes for carrying out the invention which are obvious tothose skilled in the art are intended to be within the scope of thefollowing claims.

1. A system for lubricating a zipper comprising: a zipper lubricatingdevice including an upper plate and a lower plate connected by avertical connecting block, said zipper lubricating device furtherconstructed and arranged for receipt of multiple zipper tracks throughmultiple zipper receiving channels such that movement of said zipperlubricating applicator device in one direction results in the linking ofthe zipper interlocking teeth and movement in the opposite directionresults in unlinking of said zipper interlocking teeth, at least onelubricant receiving port, and a lubricant applicator body connectingelement constructed and arranged for receipt of a lubricant applicatorbody.
 2. The system for lubricating a zipper according to claim 1further containing a lubricant applicator body, said lubricantapplicator body having a first end constructed and arranged to engagesaid lubricant applicator body receiving structure, a second endconstructed and arranged to receive a selectively pressurizedlubrication reservoir, and an inner cavity for providing fluidcommunication with between said multiple zipper receiving channels andsaid selectively pressurized lubrication reservoir.
 3. The system forlubricating a zipper according to claim 2 wherein said inner cavitycontains at least one inner lumen which terminates in at least oneopening along said first end.
 4. The system for lubricating a zipperaccording to claim 3 wherein said at least one opening along said firstend is aligned with at least a portion of said lubricant receiving port.5. The system for lubricating a zipper according to claim 4 wherein saidsecond end of said cavity includes threading.
 6. The system forlubricating a zipper according to claim 4 further containing aselectively pressurized lubrication reservoir.
 7. The system forlubricating a zipper according to claim 1 further containing a pullingelement.